首页 | 本学科首页   官方微博 | 高级检索  
相似文献
 共查询到20条相似文献,搜索用时 15 毫秒
1.
Tetrameric insulin holoreceptor (alpha 2 beta 2) was reduced with dithiothreitol into alpha beta dimers such that they maintain up to 50% of insulin binding at tracer ligand concentrations. Scatchard analysis of insulin binding to dimers revealed that they had a reduced affinity for ligand by a factor of 3-6 compared to holoreceptor, whereas the maximum number of high affinity binding sites was not affected. The alpha beta dimers can be separated from holoreceptor by sucrose density gradient centrifugation, and hence, they are not associated by noncovalent interactions. Insulin-dependent autophosphorylation of alpha beta dimers isolated from low ionic strength sucrose density gradients was minimal and was always accompanied by reoxidation of dimers to the tetrameric holoreceptor. The reformed tetramer exhibited a strong insulin-dependent autophosphorylation reaction. Reoxidation was prevented by isolating alpha beta dimers in sucrose density gradients containing 0.15 M NaCl. Under these conditions, no insulin-dependent autophosphorylation was observed. When insulin receptor was first autophosphorylated and then reduced, receptor kinase activity, as assayed by histone phosphorylation, was not affected. Also, the insulin-independent, basal autophosphorylation was maintained after reduction into alpha beta dimers. We conclude that alpha beta-alpha beta interaction is not necessary for the maintenance of basal kinase activity or for insulin-activated kinase activity once autophosphorylation occurs. However, dimer-dimer interaction appears critical for the insulin-dependent activation of the receptor's intrinsic kinase activity.  相似文献   

2.
The inhibitory capacity of the alpha-macroglobulins resides in their ability to entrap proteinase molecules and thereby hinder the access of high molecular weight substrates to the proteinase active site. This ability is thought to require at least two alpha-macroglobulin subunits, yet the monomeric alpha-macroglobulin rat alpha 1-inhibitor-3 (alpha 1I3) also inhibits proteinases. We have compared the inhibitory activity of alpha 1I3 with the tetrameric human homolog alpha 2-macroglobulin (alpha 2M), the best known alpha-macroglobulin, in order to determine whether these inhibitors share a common mechanism. alpha 1I3, like human alpha 2M, prevented a wide variety of proteinases from hydrolyzing a high molecular weight substrate but allowed hydrolysis of small substrates. In contrast to human alpha 2M, however, the binding and inhibition of proteinases was dependent on the ability of alpha 1I3 to form covalent cross-links to proteinase lysine residues. Low concentrations of proteinase caused a small amount of dimerization of alpha 1I3, but no difference in inhibition or receptor binding was detected between purified dimers or monomers. Kininogen domains of 22 and 64 kDa were allowed to react with alpha 1I3- or alpha 2M-bound papain to probe the accessibility of the active site of this proteinase. alpha 2M-bound papain was completely protected from reaction with these domains, whereas alpha 1I3-bound papain reacted with them but with affinities several times weaker than uncomplexed papain. Cathepsin G and papain antisera reacted very poorly with the enzymes when they were bound by alpha 1I3, but the protection provided by human alpha 2M was slightly better than the protection offered by the monomeric rat alpha 1I3. Our data indicate that the inhibitory unit of alpha 1I3 is a monomer and that this protein, like the multimeric alpha-macroglobulins, inhibits proteinases by steric hindrance. However, binding of proteinases by alpha 1I3 is dependent on covalent crosslinks, and bound proteinases are more accessible, and therefore less well inhibited, than when bound by the tetrameric homolog alpha 2M. Oligomerization of alpha-macroglobulin subunits during the evolution of this protein family has seemingly resulted in a more efficient inhibitor, and we speculate that alpha 1I3 is analogous to an evolutionary precursor of the tetrameric members of the family exemplified by human alpha 2M.  相似文献   

3.
Human alpha 2-macroglobulin is a tetrameric plasma inhibitor of proteinases. Its dissociation by Cd2+ gives functional dimers. Electron microscopy of negatively stained dimers shows their round-ended cylindrical shape with furrows delimiting 3 main stain-excluding domains. Image processing of electron micrographs shows the existence of 2 main orientations of the dimers on the carbon support film. The dimer is composed of 2 curved monomers linked in a central domain, and related by a 90 degree rotation. Taking into account the known primary structure of alpha 2-macroglobulin and the linkage of the 2 constitutive monomers by 2 disulfide bonds, the molecular organization of the dimer is discussed, extended to the tetrameric molecule and compared to the published models of human alpha 2-macroglobulin.  相似文献   

4.
Human pregnancy zone protein (PZP) is a major pregnancy-associated plasma protein, strongly related to alpha 2-macroglobulin (alpha 2M). Its properties and its reactions with a number of enzymes, particularly chymotrypsin, and with methylamine have been investigated. It is concluded that native PZP molecules are dimers of disulfide-bridged 180-kDa subunits and that proteinase binding results in covalent 1:1 (tetrameric)PZP-enzyme complexes. Native PZP is unstable, and storage should be avoided, but when kept unfrozen at 0 degree C most PZP preparations stay native 1-3 months. The reaction of PZP with chymotrypsin involves (i) proteolysis of bait regions, (ii) cleavage of beta-cysteinyl-gamma-glutamyl thiol ester groups, (iii) some change of the conformation and quaternary structure of PZP, and (iv) the formation of covalent 1:1 chymotrypsin-PZP(tetramer) complexes in which chymotrypsin is active but shows less activity than free chymotrypsin. The emission spectra of intrinsic fluorescence show significant differences between the PZP-chymotrypsin complex and its native components, whereas no differences are observed between methylamine-reacted PZP and native PZP. Methylamine reacts with the beta-cysteinyl-gamma-glutamyl thiol ester groups of PZP in a second-order process with k = (13.6 +/- 0.5) M-1 s-1, pH 7.6, 25 degrees C. The reaction product is PZP(dimers); no PZP(tetramers) are formed. The proteinase-binding specificity of PZP is far more restricted than that of alpha 2M. Certain chymotrypsin-like and trypsin-like enzymes are bound much less efficiently than is chymotrypsin itself.(ABSTRACT TRUNCATED AT 250 WORDS)  相似文献   

5.
It has been thought for several years that the greatly lowered oxygen affinity, high cooperativity, and heterotropic modulation displayed by tetrameric human hemoglobin (Hb) was an exclusive result of the assembly of high affinity alpha(1)beta(1) dimers into alpha(2)beta(2) tetramers. However, in recent times, it has been shown that alpha- and beta-semihemoglobins, namely alpha(heme)beta(apo) and alpha(apo)beta(heme), which are dimers of Hb characterized by a high affinity for oxygen and lack of cooperativity do respond to effectors such as 2-[4-(3,5-dichlorophenylureido) phenoxy]-2-methylpropionic acid (L35), a bezafibrate (BZF) related compound, by decreasing the ligand affinity to a considerable extent (between 60- and 130-fold). In order to shed some light on the structural basis of this phenomenon, we have developed a binding mode of L35 to semihemoglobins through docking analysis using the program GRID. Molecular modelling studies did identify sites on semihemoglobins where favourable interactions with L35 can occur. We found that the effector binds differently to the two semihemoglobins exhibiting high affinity only for the alpha chain heme pocket. The proposed binding models are consistent with the experimental findings and may be rationalized in terms of different hydrophobic and hydrophilic characteristics between alpha- and beta-heme pockets of Hb.  相似文献   

6.
The relationship between various amyloidoses and chaperones is gathering attention. In patients with dialysis-related amyloidosis, α(2)-macroglobulin (α2M), an extracellular chaperone, forms a complex with β(2)-microglobulin (β2-m), a major component of amyloid fibrils, but the molecular mechanisms and biological implications of the complex formation remain unclear. Here, we found that α2M substoichiometrically inhibited the β2-m fibril formation at a neutral pH in the presence of SDS, a model for anionic lipids. Binding analysis showed that the binding affinity between α2M and β2-m in the presence of SDS was higher than that in the absence of SDS. Importantly, SDS dissociated tetrameric α2M into dimers with increased surface hydrophobicity. Western blot analysis revealed that both tetrameric and dimeric α2M interacted with SDS-denatured β2-m. At a physiologically relevant acidic pH and in the presence of heparin, α2M was also dissociated into dimers, and both tetrameric and dimeric α2M interacted with β2-m, resulting in the inhibition of fibril growth reaction. These results suggest that under conditions where native β2-m is denatured, tetrameric α2M is also converted to dimeric form with exposed hydrophobic surfaces to favor the hydrophobic interaction with denatured β2-m, thus dimeric α2M as well as tetrameric α2M may play an important role in controlling β2-m amyloid fibril formation.  相似文献   

7.
Ribonuclease A aggregates (dimers, trimers, tetramers, pentamers) can be obtained by lyophilization from 40% acetic acid solutions. Each aggregate forms two conformational isomers distinguishable by different basic net charge. The crystal structure of the two dimers has recently been determined; the structure of the higher oligomers is unknown. The results of the study of the two trimeric and tetrameric conformers can be summarized as follows: (1) RNase A trimers and tetramers form by a 3D domain-swapping mechanism. N-terminal and C-terminal types of domain swapping could coexist; (2) the secondary structures of the trimeric and tetrameric conformers do not show significant differences if compared with the secondary structure of monomeric RNase A or its two dimers; (3) a different exposure of tyrosine residues indicates that in the aggregates they have different microenvironments; (4) the two trimeric and tetrameric conformers show different susceptibility to digestion by subtilisin; (5) dimers, trimers, and tetramers of RNase A show unwinding activity on double-helical poly(dA-dT) x poly(dA-dT), that increases as a function of the size of the oligomers; (6) the less basic conformers are more stable than the more basic ones, and a low concentration in solution of trimers and tetramers favors their stability, which is definitely increased by the interaction of the aggregates with poly(dA-dT) x poly(dA-dT); (7) the products of thermal dissociation of the two trimers indicate that their structures could be remarkably different. The dissociation products of the two tetramers allow the proposal of two models for their putative structures.  相似文献   

8.
To study the three-dimensional organization of alpha 2-macroglobulin (alpha 2M) from human plasma, immunoelectron microscopy of negatively stained specimens was used. A panel of monoclonal antibodies (mAb) with specificities typical for the two major conformers of alpha 2M (native and protease-transformed) was explored. The mAb have been selected and were classified biochemically as specific for either native or transformed alpha 2M or as reactive with both conformers. Furthermore, among the mAb that were specific for the proteinase-transformed form of alpha 2M, those reacting with the 20-kDa receptor-binding domain were considered a fourth category. Immunoelectron microscopy with these 20-kDa receptor-binding domain-specific mAb yielded the most typical result: predominantly, individual H-like alpha 2M-chymotrypsin molecules were complexed with two IgG molecules, each one bound to the extremities of two arms of the H-like figure. The resulting planar complex has the appearance of a dumbbell. Since this was observed with eight different mAb of this specificity, the result is interpreted to mean that the 20-kDa receptor-binding domain is compact and constitutes the outermost domain at the extremes of the arms of the H-like transformed alpha 2M. The mAb which are specific for the transformed state of alpha 2M but which do not react with the 20-kDa receptor-binding domain, also bound at the arms of the H-like figure, but at nonterminal positions. Moreover, these mAb produced mostly linear, chain-like immune complexes of numerous H-like alpha 2M molecules cross-linked by the IgG. The large category of mAb that reacted with both conformers of alpha 2M (native and proteinase complex) were observed to make various types of immune complexes with intra- and intermolecular cross-linking by the IgG. The observations of reaction of these mAb with Cd2+-induced dimers (half-molecules of alpha 2M), either native or transformed, proved helpful and, for certain mAb, essential to understand the organization of the alpha 2M-IgG complexes. Combined, the observations allow us to propose new models for the three-dimensional organization of native and chymotrypsin-transformed dimeric and tetrameric human alpha 2M.  相似文献   

9.
Experimental conditions favouring the dissociation of tetrameric rabbit muscle D-glyceraldehyde-3-phosphate dehydrogenase into active monomers were elaborated. The urea-induced dissociation of the tetramer was shown to be a stepwise process (in 2 M urea only dimers are formed; an increase in urea concentration up to 3 M causes the splitting of the dimers into monomers). The specific activity of immobilized monomers in the glyceraldehyde-3-phosphate oxidation reaction does not differ from that of the parent immobilized tetrameric form. The tetrameric enzyme molecule binds the coenzyme with a negative cooperativity (the first two NAD+ molecules bind with KD below 0.1 microM; for the third and fourth molecules the dissociation constant was determined to be equal to 5.5 +/- 1.5 microM (50 mM medinal buffer, 10 mM sodium phosphate, pH 8.2). The cooperativity of NAD+ binding is preserved in the immobilized preparation of tetrameric dehydrogenase. The immobilized monomers bind NAD+ with KD of 1.6 +/- 1.0 microM. The experimental results are consistent with the hypothesis according to which the association of catalytically active subunits into a tetramer changes their coenzyme-binding properties in such a way that the first two NAD+ molecules bind more firmly to a tetramer than to a monomer, whereas the third and the fourth NAD+ molecules bind less firmly.  相似文献   

10.
Divalent cations and group-specific chemical modifiers were used to modify sodium efflux in order to probe the molecular structure of sodium channels in dog red blood cells. Hg++, Ni++, Co++, and PCMBS (parachloromercuribenzene sulfonic acid), a sulfhydryl reactive reagent, induce large increases in Na+ permeability and their effects can be described by a curve which assumes 2:1 binding with the sodium channel. The sequence of affinities, as measured by the dissociation constants, reflects the reactivity of these divalent cations with sulfhydryl groups. In addition, the effects of Hg++ and PCMBS can be reversed by the addition of dithiothreitol, an SH-containing compound, to the medium. Much smaller increases in Na+ permeability are produced by Zn++ and the amino-specific reagents, TNBS (2,4,6-trinitrobenzene sulfonic acid) and SITS (4-acetamido-4'-isothiocyano-stilbene-2-2'-disulfonic acid). The Zn++ effect can be described by a curve which assumes bimolecular binding with the channel, and its effect on Na+ permeability can be reversed by the addition of glycine to the medium. The effects of Ni++ and SITS can be completely reversed by washing the cells in 0.16 M NaCl while TNBS binding is partially irreversible. Measurements of mean cell volumes (MCV) indicate that the modifier-induced increases in Na+ permeability are not caused by shrinkage of the cells. It is concluded that the movement of sodium ions through ionic channels in dog red blood cells can be enhanced by modification of amino and sulfhydryl groups. Zn++, TNBS, and SITS increase Na+ permeability by modifying amino groups in the channel while Hg++, Ni++, Co++, and PCMBS act on sulfhydryl groups.  相似文献   

11.
Y C Huang  R F Colman 《Biochemistry》1990,29(36):8266-8273
Pig heart NAD-dependent isocitrate dehydrogenase has a subunit structure consisting of alpha 2 beta gamma, with the alpha subunit exhibiting a molecular weight of 39,000 and the beta and gamma each having molecular weights of 41,000. The amino-terminal sequences (33-35 residues) and the cysteinyl peptide sequences have now been determined by using subunits separated by chromatofocusing or isoelectric focusing and electroblotting. Displacement of the N-terminal sequence of the alpha subunit by 11-12 amino acids relative to that of the larger beta and gamma subunits reveals a 17 amino acid region of great similarity in which 10 residues are identical in all three subunits. The complete enzyme has 6.0 free SH groups per average subunit of 40,000 daltons, but yields 15 distinguishable cysteines in isolated tryptic peptides. Six distinct cysteines in sequenced peptides have been located in the alpha subunit. The beta and gamma subunits contain seven and five cysteines, respectively, with tryptic peptides containing three cysteines being common to the beta and gamma subunits. The three subunits appear to be closely related, but beta and gamma are more similar to each other than either is to the alpha subunit. The NAD-specific isocitrate dehydrogenase from pig heart has been shown to have 2 binding sites/enzyme tetramer for isocitrate, manganous ion, NAD+, and the allosteric activator ADP [Colman, R. F. (1983) Pept. Protein Rev. 1, 41-69]. It is proposed that the catalytically active tetrameric enzyme is organized as a dimer of dimers in which the alpha beta and alpha gamma dimers are nonidentical but functionally similar.  相似文献   

12.
Alpha 2-macroglobulin (alpha 2M) is a plasma inhibitor of proteinases, the steric mechanism of which is based on a considerable conformational change. The typical and distinct H-like shape of alpha 2M-chymotrypsin (alpha 2M-chy) complexes seen by electron microscopy led us to an ultrastructural study of the binding of a monoclonal antibody (Mab) specific for this conformation of alpha 2M. The epitope of this Mab is located near the extremities of the 4 arms of the H-like alpha 2M-chy, at a site that is not accessible on the native molecule. The identical binding of the Mab on the 4 arms of the tetrameric molecule demonstrates that these arms are equivalent portions of the 4 monomers. Various types of immune complexes between alpha 2M and IgG are described, and images of individual immune complexes were processed by correspondence analysis. This extracts new information concerning the organization of chymotrypsin-transformed alpha 2M. The molecule appears asymmetrical, presents 2 conformational states (which we describe as relaxed and twisted), and has flexible arms. These intramolecular motions are supposed to be related to IgG binding. The results are discussed in comparison with previously published models of proteinase-transformed alpha 2M.  相似文献   

13.
Recent sequencing experiments have identified alpha-His246 as the phosphorylation site of Escherichia coli succinyl-CoA synthetase [Buck, D., Spencer, M. E., & Guest, J. R. (1985) Biochemistry 24, 6245-6252]. We have replaced alpha-His246 with an asparagine residue using site-directed mutagenesis techniques. The resulting mutant enzyme (designated H246N) exhibited no enzyme activity, as expected, but was found as a structurally intact, stable tetramer. Small differences in the net charge of H246N and wild-type enzymes were first detected on native polyacrylamide gels. These charge differences were resolved by using native isoelectric focusing gels to further separate the wild-type enzyme into diphosphorylated, monophosphorylated, and unphosphorylated species. The enzyme species were found to be interconvertible upon incubation with the appropriate enzyme substrate(s). Sample mixtures containing increasing molar ratios of H246N (alpha H246N beta)2 to wild-type enzyme (alpha beta)2 were unfolded and then refolded. The refolded enzyme mixtures were analyzed for enzymatic activity and separated on native isoelectric focusing gels. The hybrid enzyme (alpha beta alpha H246N beta) retained a significant amount of enzyme activity and also exhibited substrate synergism (stimulation of succinate in equilibrium succinyl-CoA exchange in the presence of ATP). Substrate synergism with this enzyme has been interpreted as evidence for interaction between active sites in such a way that only a single phosphoryl group is covalently attached to the enzyme at a given time [Wolodko, W. T., Brownie, E.R., O'Connor, M. D., & Bridger, W. A. (1983) J. Biol. Chem. 258, 14116-14119]. On the contrary, we conclude that tetrameric succinyl-CoA synthetase from E. coli is comprised of two independently active dimer molecules associated together to form a "dimer of dimers" that displays substrate synergism within each dimer and not necessarily between dimers.(ABSTRACT TRUNCATED AT 250 WORDS)  相似文献   

14.
When influenza A virus infects host cells, its integral matrix protein M2 forms a proton-selective channel in the viral envelope. Although X-ray crystallography and NMR studies using fragment peptides have suggested that M2 stably forms a tetrameric channel irrespective of pH, the oligomeric states of the full-length protein in the living cells have not yet been assessed directly. In the present study, we utilized recently developed stoichiometric analytical methods based on fluorescence resonance energy transfer using coiled-coil labeling technique and spectral imaging, and we examined the relationship between the oligomeric states of full-length M2 and its channel activities in living cells. In contrast to previous models, M2 formed proton-conducting dimers at neutral pH and these dimers were converted to tetramers at acidic pH. The antiviral drug amantadine hydrochloride inhibited both tetramerization and channel activity. The removal of cholesterol resulted in a significant decrease in the activity of the dimer. These results indicate that the minimum functional unit of the M2 protein is a dimer, which forms a complex with cholesterol for its function.  相似文献   

15.
It is commonly believed that the tetrameric Adair constants for oxygen binding to human hemoglobin can be evaluated from a single oxygenation experiment at 'high' hemoglobin concentration without considering the consequence of the presence of alpha beta dimers. We present examples which demonstrate that this is a very dangerous assumption. Without a knowledge of the complete oxygenation-linked dimer-tetramer association reaction (alpha beta Xi----(alpha beta)2Xj), it is impossible to predict a priori how high of a hemoglobin concentration would be required to make this assumption. Furthermore, without a knowledge of the complete oxygenation-linked dimer-tetramer association reaction, it is impossible to predict a priori the direction and magnitude of the systematic errors which are induced by making this assumption.  相似文献   

16.
Soluble, recombinant forms of influenza A virus haemagglutinin and neuraminidase have been produced in cells of lower eukaryotes, and shown in a mouse model to induce complete protective immunity against a lethal virus challenge. Soluble neuraminidase, produced in a baculovirus system, consisted of tetramers, dimers and monomers. Only the tetramers were enzymatically active. The immunogenicity decreased very considerably in the order tetra > di > mono. Therefore, we fused the head part of the neuraminidase gene to a tetramerizing leucine zipper sequence; the resulting product was enzymatically active, tetrameric neuraminidase. The protective immunity induced by this engineered neuraminidase, however, remained fairly strain-specific. A third influenza A virus protein, the M2 protein, has only 23 amino acids exposed on the outer membrane surface. This extracellular part, M2e, has been remarkably conserved in all human influenza A strains since 1933. By fusing the M2e sequence to hepatitis B virus core protein, we could obtain highly immunogenic particles that induced complete, strain-independent, long-lasting protection in mice against a lethal viral challenge. Native M2 is a tetrameric protein and this conformation of the M2e part can also be mimicked by fusing this sequence to a tetramerizing leucine zipper. The potential of the resulting protein as a vaccine candidate remains to be evaluated.  相似文献   

17.
The crystal structure of the tetrameric alpha2beta2 acetyl-coenzyme A synthase/carbon monoxide dehydrogenase from Moorella thermoacetica has been solved at 1.9 A resolution. Surprisingly, the two alpha subunits display different (open and closed) conformations. Furthermore, X-ray data collected from crystals near the absorption edges of several metal ions indicate that the closed form contains one Zn and one Ni at its active site metal cluster (A-cluster) in the alpha subunit, whereas the open form has two Ni ions at the corresponding positions. Alternative metal contents at the active site have been observed in a recent structure of the same protein in which A-clusters contained one Cu and one Ni, and in reconstitution studies of a recombinant apo form of a related acetyl-CoA synthase. On the basis of our observations along with previously reported data, we postulate that only the A-clusters containing two Ni ions are catalytically active.  相似文献   

18.
Mutsuro J  Nakao M  Fujiki K  Yano T 《Immunogenetics》2000,51(10):847-855
Unlike mammals, bony fish possess multiple genes encoding the complement component C3, a member of the alpha2-macroglobulin (alpha2M) protein family, presumably expanding the diversity of immune recognition. To examine whether the alpha2M gene has also duplicated and diverged in the bony fish lineage, cDNA cloning of alpha2M from a pseudotetraploid teleost, the common carp (Cyprinus carpio), was conducted and resulted in the isolation of three distinct alpha2M sequences from a single individual, indicating the presence of multiple alpha2M genes in this species. The deduced amino acid sequences contained a post-translational cleavage signal, predicting a C3-like two-chain structure, as in lamprey alpha2M. Two distinct alpha2M proteins were purified from carp serum; both proved to be Mr 380,000 dimers, the subunits of which are composed of disulfide-linked alpha chains (Mr 93,000) and beta chains (Mr 85,000), as reported for the alpha2M from plaice, another teleost species. The presence of an internal thioester in the alpha chain was demonstrated by its autolytic fragmentation and direct incorporation of [14C]methylamine. Interestingly, the three forms of carp alpha2M exhibited outstanding sequence diversity in the bait region which displays target sequences for various proteases, and in the C-terminal region of the alpha chain assigned as the receptor-binding domain, while an Asn residue at the position corresponding to the catalytic His in C3 was completely conserved in the carp alpha2Ms, as in most alpha2Ms of other animals. The possible functional significance of the sequence diversity is discussed.  相似文献   

19.
Native human pregnancy zone protein (PZP), a close homolog of alpha 2-macroglobulin (alpha 2M), can be obtained in approximately 20% yield from pooled late pregnancy plasma or serum by a combination of polyethylene glycol precipitation, euglobulin precipitation, DEAE-Sephacel chromatography, zinc-chelate affinity chromatography, and negative affinity chromatography on insolubilized antibodies against human serum proteins. Both proteins are similarly organized as disulfide-bridged dimers of 360 kDa containing 180-kDa subunits. These dimers constitute the proteinase-binding units of PZP, and in contrast to alpha 2M, they appear to be only loosely associated, indicating a subtle difference in the quaternary structure of these alpha-macroglobulins. The preparations contain functionally intact beta-cysteinyl-gamma-glutamyl thiol esters, located in the same nonapeptide sequence as found in alpha 2M, and form complexes with a variety of proteinases in which a large fraction of the proteinase is bound covalently. Proteinases bound to PZP are still active and poorly accessible to reaction with large inhibitors like alpha 1-proteinase inhibitor. The structural and functional features of PZP indicate that PZP and alpha 2M, although extremely similar, may have different yet overlapping sets of proteinases as targets. It is possible that PZP mainly controls the activity of cellular proteinases released under conditions of increased cellular turnover and that PZP could be the human equivalent to the acute phase alpha-macroglobulins known in other species.  相似文献   

20.
When alpha 2-macroglobulin (alpha 2M) is reacted with proteinases including trypsin, plasmin, alpha-thrombin, or with CH3NH2, each resulting alpha 2M derivative is precipitated by Zn2+ in a similar manner. By contrast, unreacted alpha 2M is not precipitated over the same Zn2+ concentration range. Zn2+-induced precipitation of alpha 2M-CH3NH2 or alpha 2M-trypsin is prevented by acylation of the protein employing the histidine-specific reagent diethylpyrocarbonate (DEP). The Zn2+-induced precipitation of alpha 2M-trypsin is prevented by acylation of the preformed alpha 2M-trypsin complex or by the reaction of acylated native alpha 2M with trypsin. Acylation of alpha 2M by treatment with DEP results in the modification of 13.5 histidyl residues per subunit of either native alpha 2M or alpha 2M-CH3NH2. Subsequent treatment with hydroxylamine reverses the modification of 10.5 histidyl residues per subunit in each protein preparation. These results indicate that histidyl residues are involved in the Zn2+-induced precipitation of alpha 2M-proteinase or alpha 2M-CH3NH2 complexes, and that these residues are accessible to extensive protein-metal interactions only after alpha 2M has undergone a major conformational change. These appear to be the same histidyl residues which, upon acylation by DEP, are responsible for recognition of alpha 2M-proteinase complexes by the acyl-low-density-lipoprotein cell surface receptor (S. V. Pizzo, P. A. Roche, S. R. Feldman, and S. L. Gonias (1986) Biochem. J. 238, 217-225).  相似文献   

设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号